AT32UC3L-EK Atmel, AT32UC3L-EK Datasheet - Page 602

AT32UC3L-EK

Manufacturer Part Number

AT32UC3L-EK

Description

KIT EVAL AVR32 UC3 MCU

Manufacturer

Atmel

Type

MCUr

Datasheets

1.ATAVRONE-PROBECBL.pdf (16 pages)

2.AT32UC3L-EK.pdf (858 pages)

Specifications of AT32UC3L-EK

Contents

Silicon Manufacturer

Atmel

Core Architecture

AVR

Core Sub-architecture

UC3L

Kit Contents

Board

Features

USB / Battery Powered, Board Controller / Bootloader

Svhc

No SVHC (15-Dec-2010)

Rohs Compliant

Yes

Tool Type

Starter Kit

Cpu Core

AVR 8

Data Bus Width

8 bit

Processor Series

AT32

Processor To Be Evaluated

AT32UC3L064

Interface Type

USB, Capacitive Touch

For Use With/related Products

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AT32UC3L-EK

Manufacturer:

Atmel

Quantity:

135

Current page: 602 of 858
Download datasheet (13Mb)

26.5.4

26.5.5

26.5.6

26.6

26.6.1

26.6.2

32099F–11/2010

Functional Description

Interrupts

Peripheral Events

Debug Operation

Initializing the ADCIFB

Basic Operation

The ADCIFB interrupt request line is connected to the interrupt controller. Using the ADCIFB

interrupt request functionality requires the interrupt controller to be programmed first.

The ADCIFB peripheral events are connected via the Peripheral Event System. Refer to the

Peripheral Event System chapter for details

When an external debugger forces the CPU into debug mode, this module continues normal

operation. If this module is configured in a way that requires it to be periodically serviced by the

CPU through interrupt requests or similar, improper operation or data loss may result during

debugging.

The ADCIFB embeds a Successive Approximation Register (SAR) Analog-to-Digital Converter

(ADC). The ADC supports 8-bit or 10-bit resolution, which can be extended to 11 or 12 bits by

the Enhanced Resolution Mode.

The conversion is performed on a full range between 0 V and the reference voltage pin

ADVREFP. Analog inputs between these voltages converts to digital values (codes) based on a

linear conversion. This linear conversion is described in the expression below where M is the

number of bits used to represent the analog value, Vin is the voltage of the analog value to con-

vert, Vref is the maximum voltage, and Code is the converted digital value.

The ADC Interface is enabled by writing a one to the Enable bit in the Control Register (CR.EN).

After the ADC Interface is enabled, the ADC timings needs to be configured by writing the cor-

rect values to the RES, PRESCAL, and STARTUP fields in the ADC Configuration Register

(ACR). See

I/O Controller must be configured correctly and the Reference Voltage (ADVREFP) signal must

be connected. Refer to

To convert analog values to digital values the user must first initialize the ADCIFB as described

writing a one the corresponding bits in the Channel Enable Register (CHER). Enabling channel

N instructs the ADCIFB to convert the analog voltage applied to AD pin N at each conversion

sequence. Multiple channels can be enabled resulting in multiple AD pins being converted at

each conversion sequence.

To start converting data the user can either manually start a conversion sequence by writing a

one to the START bit in the Control Register (CR.START) or configure an automatic trigger to

initiate the conversions. The automatic trigger can be configured to trig on many different condi-

tions. Refer to

Section

26.6.1. When the ADCIFB is initialized the channels to convert must be enabled by

Section

Section 26.8.1

26.6.6, and

Section 26.5.1

for details.

Section 26.6.8

for details.

Code

for details. Before the ADCIFB can be used, the

------------------- -

⋅

ref

AT32UC3L016/32/64

602

AT32UC3L-EK Atmel, AT32UC3L-EK Datasheet - Page 602

AT32UC3L-EK

Specifications of AT32UC3L-EK

Available stocks

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